Record Display for the EPA National Library Catalog

RECORD NUMBER: 4 OF 6

Main Title Evaluation of the Technological Feasibility, and Cost of Selected Control Alternatives Necessary to Meet the Proposed Ohio SO2 Regulations for Industrial Boilers and Processes. Volume VI. Mead Corporation, Chillicothe Mill.
Author Sahagian, James ; Hall., Robert R. ;
CORP Author GCA Corp., Bedford, Mass. GCA Technology Div.;Environmental Protection Agency, Chicago, Ill. Air and Hazardous Materials Div.
Year Published 1976
Report Number GCA-TR-76-14-G-Vol-6; EPA-68-01-3155; EPA/905/2-76/005-f;
Stock Number PB-268 959
Additional Subjects Paper industry ; Boilers ; Sulfur dioxide ; Air pollution control ; Ohio ; Coal ; Calcium oxides ; Feasibility ; Combustion products ; Industrial wastes ; Steam ; Cost analysis ; Operating costs ; Capitalized costs ; Regulations ; Process charting ; Design criteria ; Performance evaluation ; Air pollution control equipment ; Plant location ; Flue gases ; Sites ; Scrubbers ; Byproducts ; Sludge disposal ; Waste disposal ; Air pollution abatement ; Coal preparation ; Limestone scrubbing ; Alkaline scrubbing ; Wellman process ; Waste utilization ; Low sulfur coal
Holdings
Library Call Number Additional Info Location Last
Modified		 Checkout
Status
NTIS  PB-268 959 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation 62p
Abstract
This report presents an evaluation by the GCA Corporation, GCA/Technology Division, of technological feasibility and cost of complying with the proposed Ohio sulfur dioxide regulation (40 FR 52410, November 10, 1975) at the Mead Corporation's Chillicothe Mill. The final USEPA Sulfur Dioxide Control Strategy for the State of Ohio Technical Support Documents, Vol. I and II, (EPA 905/2-76-002) may be obtained from NTIS. This facility operates three coal-fired boilers to provide process steam for the production of paper. After collecting necessary site and process specific data by means of a plant visit, the technical feasibility and cost of a lime-based desulfurization system were evaluated.